KR101061744B1 - LS system, method, and apparatus for authorization of mobile station location based service (LSS) applications - Google Patents

Abstract

The present invention relates to a system, method and apparatus for providing location services in which location and location disclosure are handled as separate and independent processes. Location determination may be performed through a first set of network entities (if needed) to obtain location information for the mobile station. Location information may be stored for subsequent publication to any number of applications. Location disclosure may be performed through a second set of network entities (when requested) to provide location information. Location determination may use a first security procedure for authorization and to obtain a first session key used for location determination. Location publishing may use a second security procedure for authorization and to obtain a second session key used for location publishing. In the case of roaming mobile stations, location determination may be performed via the serving network and location publishing may be performed via the home network.

Description

LBS system, method and apparatus for authorization of mobile station location based service (LBS) application TECHNICAL TECHNICAL FIELD [1] [LOCATION BASED SERVICE (LBS) SYSTEM, METHOD AND APPARATUS FOR AUTHORIZATION OF MOBILE STATION LBS APPLICATIONS

Related Applications

This application claims the benefit of US Provisional Application No. 60 / 444,248, filed January 31, 2003 and US Provisional Application No. 60 / 445,815, filed February 5, 2003.

background

Technical Field

TECHNICAL FIELD The present invention relates generally to communications, and more particularly, to systems, methods, and apparatus for performing location determination and providing location information through a location based service (LBS) architecture.

Background

Often, it is desirable to know the location of a wireless user. In fact, it is sometimes necessary to know the location of a wireless user. For example, the Federal Communications Commission (FCC) may require an enhanced 911 (requires that the location of a mobile station (e.g., cellular telephone) be provided to a public safety response point (PSAP) whenever a 911 call is made from the mobile station). E-9-1-1) Adopted rule report and order for wireless service. In addition to the FCC mandate, network operators / service providers may support a variety of applications that use location-based services. This service provides the location of the mobile station. "Application" refers to a specific use made of location information. Often, applications are implemented in computer software that is executed by a processor in a mobile station or by a processor located in a wireless infrastructure network in communication with the mobile station. Applications that use this information include, for example, location-sensitive billing, asset tracking, asset monitoring and retrieval, fleet and resource management, personal-location services, and the like. You may. Some specific examples of applications for personal-location services include (1) providing a mobile station with a local map based on the location of the mobile station, (2) a facility (eg, a hotel or Restaurant), and (3) providing directions from the mobile station's location to the recommended facility.

Currently, the use of location-based services (ie, a mobile station that wants to know its location, or an entity that wants the location of the mobile station) requires payment to the service provider. In order to ensure that such payments can be collected, as well as privacy and other concerns, it is very important to "authorize" the application. Authorization of an application refers to the act of verifying that "sufficient" identity and charging information is present. Such identity and billing information may include, but are not limited to, 1) the billing address, 2) authorization from the service provider to access the requested location information, and 3) the billing entity (ie, service provider) relating to the terms and conditions under which the requested location information is provided. ) And agreement between the party to be charged. The identity and billing information may allow it to: 1) allow the service provider to use a location based service (e.g., to provide location measurement information) to charge and collect charges from that party, and 2) to use the location information. If you protect everyone's privacy, you are considered "enough."

Typically, an application accessed by a mobile station runs in a component within the network. Thus, the network component can control the application. However, in some currently anticipated applications, there is a need to authorize applications running in mobile stations. Accordingly, what is needed is a method and apparatus for allowing an application to be authorized before the application can drive and access location measurement information.

summary

The method and apparatus of the present invention allow an application executed in a mobile station to be directly authorized by a Mobile Positioning Center (MPC). The mobile station communicates with a component of the communication infrastructure, and according to one embodiment of the method and apparatus of the present invention, this component is a component within the cellular communication network infrastructure. A typical cellular communication network infrastructure includes a base station through which signals are transmitted over the air from a wireless mobile station and received within the network. The mobile location center (MPC) is coupled to the base station using any one of a variety of potential configurations that are well known in the art. According to the method and apparatus of the present invention, the MPC is responsible for authorizing applications residing in the mobile station. The mobile station communicates directly with the MPC via a communication link via base stations and other infrastructure components. If the user of the mobile station wants to run a location based service application within the mobile station, the mobile station will establish a communication link with the MPC. The mobile station will then request authorization for the mobile station to run the location based service application. Applications in the mobile station are allowed to run only if their authorization is successful.

Hereinafter, various aspects and embodiments of the invention are described in more detail.

Brief description of the drawings

The method and apparatus of the present invention can be more clearly understood from the following detailed description taken in conjunction with the following drawings, wherein like reference numerals denote like elements.

1 is a simplified block diagram of a mobile station, a wireless network, a mobile location center, and positioning equipment in accordance with the method and apparatus of the present invention.

2 is a simplified block diagram of components of a mobile station in accordance with the method and apparatus of the present invention.

3 is a schematic diagram of an example of a protocol stack used within one embodiment of the method and apparatus of the present invention.

4 is a schematic diagram illustrating a sequence of messages delivered between various components of a system implementing the method and apparatus of the present invention when an application in a mobile station is properly authorized.

FIG. 5 is a schematic diagram illustrating a message sequence delivered between various components of an implemented system when an application in a mobile station is not properly authorized.

6 is a schematic diagram illustrating a sequence of messages delivered between various components of a system implementing an alternative embodiment of the method and apparatus of the present invention when an application in a mobile station is properly authorized.

details

1 is a system comprising a mobile station 101, a wireless network 103, a mobile positioning center (MPC) 105, and a positioning equipment (PDE) 107 in accordance with the method and apparatus of the present invention ( Is a simplified block diagram illustrating 100). Mobile station 101 may be any wireless device capable of running a Location Based Service (LBS) application. For the purposes of this specification, an LBS application is any program, applet, routine, or other computer implementation that provides a user with information or services using the location of the mobile station on which the application is running or the location of another mobile station. Contains an algorithm. Examples of such LBS applications include: 1) identifying the location of a mobile station operated by another person so that the LBS client (ie, the person requesting LBS service) can determine the location of another person using a properly equipped mobile station. 2) determine the location of a nearby product or service outlet, and provide the user with guidance to a retailer, such as an automated teller machine or a restaurant, and 3) provide a properly equipped mobile station. Include programs that can do tracking, etc. Examples of wireless devices capable of running LBS applications include cellular telephones, wireless modems, personal information managers (PIMs), personal digital assistants (PDAs), and the like.

As shown in FIG. 1, mobile station 101 communicates with wireless network 103 via wireless link 102. The wireless network 103 includes at least one base station 104 capable of receiving information from the mobile station 101 and transmitting information to the mobile station 101 via the wireless link 102. For this specification, base station 104 includes various other components of wireless network 103 that are not shown for simplicity, such as a base station controller (BSC), mobile switching center (MSC), and the like.

Base station 104 is coupled to MPC 105 by any conventional communication medium including, but not limited to, cables, microwave links, satellite communication links, and the like. Similarly, MPC 105 is coupled to PDE 107 by any conventional communication medium.

2 is a simplified block diagram of the components of a mobile station 101 in accordance with the method and apparatus of the present invention. The mobile station 101 shown in FIG. 2 includes a transceiver 201, a processor 203, an application memory 205, and a general purpose memory 207. Processor 203 is shown as one block. However, those skilled in the art should understand that the functions disclosed as being performed by the processor 203 may be performed by a number of separate processors, all working together or operating independently. Thus, such multiple processors may be coupled together or operate completely independently of one another to perform the functions of the present invention. Further, according to an alternative embodiment of the method and apparatus of the present invention, the application memory 205 and the general purpose memory 207 are stored in such a memory 205, 207 as a single memory for storing the information disclosed herein. May be combined. In yet another alternative embodiment, the mobile station 101 may have several additional independent memory devices that share the responsibility of storing information within the mobile station 101.

The processor 203 has several functions that work together as a protocol stack. 3 is a schematic diagram of an example of a protocol stack used within one embodiment of the method and apparatus of the present invention. For the purposes of this specification, a protocol stack is any set of routines or program instructions that work together, and typically one routine builds and uses the functions of another low-level routine or program. The first function in the protocol stack of FIG. 3 is operating system 301. The operating system 301 is the basic function for building other functions. That is, operating system 301 includes functions that can be accessed and used by other functions performed within processor 203. According to one embodiment of the method and apparatus of the present invention, operating system 301 is a binary run-time environment for wireless (BREW) operating system. Alternatively, operating system 301 is a wireless application protocol (WAP). In yet another alternative embodiment, the operating system is a short message service (SMS) operating system. In yet another alternative embodiment, the operating system is a Java operating system or the like. Java is a trademark of Sun Microsystems' operating system. Those skilled in the art will appreciate that the particular operating system used is not directly related to the method and apparatus of the present invention for authorizing an LBS application 303 for running within mobile station 101.

According to one embodiment, the LBS application 303 runs on top of the operating system 301. As an example, LBS application 303 may access and use user interface functions to receive information from a mobile station user through a conventional data input device, such as a keyboard or touch screen. LBS applications may also access and use operating system functions to provide information back to the mobile station user via a liquid crystal diode (LCD) display screen.

One function of the LBS application is to provide mobile station users with the ability to determine the location of the mobile station and to determine what points of interest and service retailers (e.g. stores, cash dispensers, restaurants, museums, etc.) are in the vicinity of the mobile station. And provide navigation guidance and maps to the user based on information about the location of the mobile station and the location of particular service retailers and points of interest.

The LBS application 303 determines the location of the mobile station 101 by accessing the location measurement engine 305. The positioning engine 305 may be any function capable of determining the position of the mobile station 101. In one embodiment of the method and apparatus of the present invention, the positioning engine 305 is a component of a Global Positioning Satellite (GPS) system. The positioning engine 305 in this embodiment includes a GPS receiver function that allows the mobile station to receive information from the GPS satellites (along with the GPS receiver hardware 202) to determine the position of the mobile station 101. .

Further, in one embodiment of the method and apparatus of the present invention, the location measurement engine 305 requests and receives aiding information from the PDE 107. For example, in one embodiment, the mobile station requests information about which satellites are "in view." If one satellite is observed, the mobile station 101 should be able to receive and demodulate information from that satellite.

In addition, the mobile station 101 may use information about the position of the observed satellite, information about a correction factor to be used when calculating the position of the mobile station 101 using information received from the observed satellite, It may also request information regarding the amount of Doppler shift that the mobile station may expect to encounter when receiving a signal from a satellite, and other useful information. This information allows the mobile station 101 to detect and "acquire" the satellites more quickly. Acquisition of a satellite involves receiving the signal transmitted from the satellite and transmitting the received information locally in the mobile station 101 so that the mobile station 101 can interpret the modulated information on the signal transmitted by the satellite. The process of timing and alignment. Hereinafter, further description is provided regarding the process of receiving assistance information from the PDE 107.

3 also shows a TCP / IP wrapper 307. TCP / IP wrapper 307 is a protocol layer that supports the sending and receiving of messages in accordance with the well-known TCP / IP communication protocol. Thus, the information transmitted by the mobile station 101 in accordance with the TCP / IP protocol is provided to the TCP / IP wrapper 307. Thereafter, the TCP / IP wrapper 307 properly formats the information according to the TCP / IP protocol standard so that other devices to which the information is transmitted can receive and interpret the information transmitted by the mobile station 101. do.

Once the TCP / IP wrapper 307 has formatted the information, the formatted information is passed to the TCP / IP layer 309. The TCP / IP layer 309 orders the information for request / response ordering of messages that make up a handshake that occurs between a sending device and a receiving device according to the TCP / IP protocol (i.e., the TCP / IP protocol). Send according to)).

4 is a schematic diagram illustrating a message sequence conveyed between various components of a system 100 implementing the method and apparatus of the present invention, when the LBS application 303 in the mobile station 101 is properly authorized. The blocks shown across the top of FIG. 4 represent each of these components. These components include the LBS application 303, the location measurement engine 305, the PDE 107, and the MPC 105. Lines 401a, 401b, 401c, 401d descending vertically from each component 303, 305, 107, 105 indicate the passage of time. The points of the line closest to the components 303, 305, 107, 105 represent the most recent time point.

First, the LBS application 303 invokes the positioning engine 305. Arrow 403 from LBS application 303 to location engine 305 represents this step. In one particular embodiment, the location measurement engine 305 is a gpsOne ™ application program interface (API). In some embodiments of the method and apparatus of the present invention, the mobile station user may be informed that the LBS application is attempting to run. Some such embodiments require the user to verify that the user wants to perform the function to be performed by the LBS application. If such notification and verification is performed, it is desirable that it is performed before the LBS application invokes the gpsOne ™ API.

In response to the invoking of the positioning engine 305, the positioning engine 305 transmits a request for positioning to the MPC 105 using a predetermined mobile station / MPC (MS-MPC) protocol. According to the MS-MPC protocol, the mobile station 101 initiates a TPC / IP session with the MPC 105. Arrow 405 shown in FIG. 4 represents communication between the mobile station 101 and the MPC 105. A TCP / IP session from the mobile station 101 to the MPC 105 is established for the port number and virtual IP address to be specified by the operator. Once the TCP / IP session is established, the MS will send a "StartPositioningProcessRequest" message to the MPC 105. This message contains a number of parameters.

In one embodiment of the method and apparatus of the present invention, such parameter includes a URL of a content provider. The content provider is typically an entity outside of the wireless network 103. The content provider provides the information required by the particular LBS application 303 that is attempting to drive in the mobile station 101. For example, if the application is looking for the nearest restaurant, the content provider is a database of information about the restaurant and its location. The content provider is accessible using an Internet Protocol (IP) address that can be derived from the provided URL.

In one embodiment of the method and apparatus of the present invention, the parameters of the "StartPositioningProcessRequest" message sent to the MPC 105 also include an application indicator. The application indicator identifies which specific LBS application 303 is trying to run. Another parameter is an indication of whether the user agrees to have an LBS application 303 running on the mobile station 101. Another parameter is the mobile station identification value (MS_ID). The MS_ID indicates in which mobile station 101 the LBS application 303 will run.

Another parameter indicates the MS location capability. Since the mobile station 101 may change its capability to process and manipulate the location measurement information, this parameter represents the capability of the mobile station 101. For example, a particular mobile station 101 may only perform location calculations based on information related to any cell (ie, base station) or sector of a cell in the cellular telephone network with which the mobile station 101 is currently communicating. Other mobile stations may only assist the base station 103 when calculating the location of the mobile station. Such mobile stations are collectively referred to as operating in MS-assisted hybrid mode only. Other mobile stations may assist the base station in calculating the location of the mobile station or calculate the location of the mobile station within the mobile station itself. Such mobile stations are collectively referred to as having both an MS-assisted hybrid mode of operation and an MS-based GPS mode of operation. In addition, some mobile stations may not have location measuring capability at all.

Another example of a parameter is cell / sector information. The cell / sector information allows the MPC to choose to perform cell / sector positioning rather than GPS positioning or in combination with GPS positioning. In addition, several other parameters not related to the methods and apparatus disclosed herein are provided in the StartPositioningProcessRequest message.

In response to receiving the StartPositioningProcessRequest message 405, the MPC performs an authorization step to ensure that this particular user has access to the requested location measurement application. The MPC also checks to see if the location measurement engine 305 needs to determine the location of the mobile station 101. That is, there exists a case where a stored location for the mobile station 101 (ie, a previously calculated, stored, and still valid location) may be used, rather than when it is necessary to recalculate the location of the mobile station 101. In other cases, the mobile station 101 may be located with sufficient accuracy for the LBS application 303 using only the information of the location of the particular cell / sector (s) in the cellular communication network with which the mobile station 101 is communicating. It may be.

When determining that the position measurement calculation should be performed by the position measurement engine 305 in the mobile station 101, the MPC 105 responds to the position measurement engine 305. The response from the MPC 105 depends on whether the MPC determines that the LBS application 303 in the mobile station 101 has the appropriate authority to calculate the location of the mobile station 101. The MPC 105 determines whether the LBS application 303 has the appropriate authority to run. The MPC 105 may either be because the user has refused the LBS application to have the right to calculate the location of the mobile station 101 or because the information about the LBS application 303 is insufficient for the LBS application to run. Because of the decision, it can be determined that the LBS application does not have permission to run. This may be because the user did not pay the fee required to allow the LBS application to access the LBS service or the information about the user is incomplete. Whether the LBS application has permission to run or not, a "StartPositioningProcessResponse" message 407 is sent from the MPC 105 to the mobile station 101. As will be described in more detail below, depending on the content of the StartPositioningProcessResponse message 407, the positioning engine 305 is instructed whether to perform a GPS “session”. 5 illustrates a message sequence when the MPC determines that the LBS application 303 is not authorized to run. The details of the sequence are further deferred to allow the complete sequence authorized to run the LBS application to be described in the text that follows.

The GPS session includes 1) acquisition of a satellite necessary to calculate the location of the mobile station 101, 2) demodulation of the navigation messages of the satellite, and 3) calculation of the mobile station location based on the GPS information available to the mobile station 101. .

According to one embodiment of the method and apparatus of the present invention, the StartPositioningProcessResponse message includes the following information.

1) a version number indicating the version of the specification used to formulate the StartPositioningProcessResponse message;

2) the length of the StartPositioningProcessResponse message;

3) location status messages indicating the method used to calculate the location of the mobile station. According to one embodiment of the method and apparatus of the present invention, the parameters used in this message are a) whether the location measurement engine uses GPS, b) whether it uses a stored location, c) whether cell / sector information is used. Whether the user has denied a request for the LBS application to calculate the location of the mobile station 101, or e) whether the request is not authorized.

4) PDE IP address, assuming GPS is used to calculate the location of mobile station 101;

5) a PDE port number used by a sensor interface application (SIA) (not shown) that works with the PDE 107 to assist the PDE 107 when communicating with other components remote to the PDE 107;

6) a value to indicate whether the position estimate of the mobile station 101 is included in the StartPositioningProcessResponse message;

7) a time stamp for indicating a GPS time associated with a position estimate of the mobile station 101;

8) The mobile station (101) provided in the section of the standard entitled "Provide Location Response Message" in the format indicated by the Telecommunication Industry Association / Electronic Industry Association (TIA / EIA) standard IS-801-1. Latitude estimate of the position of;

9) a longitude estimate provided in the format indicated by TIA / EIA Standard IS-801-1 in the section of the standard entitled "Provide Location Response Message";

10) location uncertainty estimate provided in the format indicated by TIA / EIA standard IS-801-1 in the section of the standard entitled “Provide Location Response Message”;

11) a speed estimate provided in the format indicated by the TIA / EIA standard IS-801-1 in the section of the standard entitled "Provide Location Response Message";

12) heading estimate provided in the section indicated by the TIA / EIA standard IS-801-1 in the section of the standard entitled "Provide location response message"; And

13) A height estimate given in the format indicated by TIA / EIA Standard IS-801-1 in the section of the standard entitled "Provide Location Response Message".

When determining that the LBS application is authorized, the MPC 105 provides a " GPOSREQ " message 409 to the PDE 107 in addition to providing the StartPositioningProcessResponse message 407 to the mobile station 101. The GPOSREQ message 409 to the PDE 107 sends information to the PDE 107 that assists the PDE 107 to work with the positioning engine 305 when determining the location of the mobile station 101. do. In particular, GPOSREQ message 409 provides the PDE 107 with information about the location of the base station 104 with which the mobile station 101 communicates. This information causes the PDE 107 to determine the location of the mobile station 101 within two miles or less. The PDE 107 then provides assistance information to assist the positioning engine 305 in the mobile station 101 to more easily determine which satellite is observed and to obtain that satellite much more quickly. It can be provided most efficiently.

In addition to sending a StartPositioningProcessRequest message 405, the positioning engine 305 attempts to perform a Mobile Originated (MO) positioning session 411 according to the protocol laid out in the TIA / EIA standard IS-801. However, if the PDE 107 does not receive the GPOSREQ message 409, the PDE 107 will not respond to a request for information from the positioning engine 305 in the mobile station 101. This will be explained in more detail below in the description of FIG. 5. The MO IS-801 session includes both a message from the PDE 107 to the positioning engine 305 and a message from the positioning engine 305 to the PDE 107. At the end of the MO IS-801 session, assuming that the session has completed normally, the PDE 107 provides the MPC 105 with a message 413 indicating normal completion. Finally, the location measurement engine 305 in the mobile station 101 sends a message 415 to the LBS application 303, where the location of the mobile station 101 is provided.

FIG. 5 is a schematic diagram illustrating a message sequence transferred between the LBS application 303, the positioning engine 305, the PDE 107, and the MPC 105 when an application in the mobile station 101 is not properly authorized. . The process shown in FIG. 5 starts the same as the process shown in FIG. That is, the LBS application 303 first invokes the position measurement engine 305, as shown in FIG. 5 by the arrow 403. The location measurement engine 305 then generates a StartPositioningProcessRequest message 405 and forwards the message 405 to the MPC 105. However, in the case shown in FIG. 5, the MPC 105 rejects the LBS application's attempt to gain access to the location measurement service of the PDE 107. Accordingly, MPC 105 returns a StartPositioningProcessResponse message 501 to positioning engine 305 in mobile station 101 indicating that access to PDE 107 has been denied. Since the location measurement engine 305 does not have enough information to determine the location of the mobile station 101 at the request of the LBS application, the location measurement engine 305 indicates the denial of access to the service of the PDE 107. Respond by returning message 503 to LBS application 303. At that point, the process ends, and due to the failure of the mobile station 101 to receive information about the location of the mobile station 101, the LBS application 303 actually stops driving. In an alternate embodiment, the LBS application 303 may continue to drive, but cannot use the location measurement service provided by the PDE 107.

FIG. 6 is a schematic diagram illustrating a message sequence delivered between components of an alternative embodiment of the method and apparatus of the present invention when an application in a mobile station is properly authorized. According to the embodiment shown in FIG. 6, a sensor interface application (SAI) 601 is used to interface between the positioning engine 305 and the PDE 107. SAI 601 is provided only to divert communication between the positioning engine 305 and the PDE 107 during the MO IS-801 sessions 603, 605. However, all of the other functions described above with respect to FIG. 4 are identical. Also, since there is no authorization to perform the MO IS-801 session, the use of SAI 601 does not change the message sequence shown in FIG. Those skilled in the art will appreciate that several other relay devices may be located between the components described herein without changing the nature and effects of the methods and apparatus of the present invention.

A description of the method and apparatus of the present invention is provided to enable any person skilled in the art to make or use the present invention as defined by the claims appended hereto. Those skilled in the art will apparently appreciate various modifications to these methods and apparatus. However, without departing from the spirit or scope of the claimed invention, the general principles defined herein may be applied to other embodiments of the methods and apparatus of the present invention. Thus, the claimed invention is not limited to the embodiments of the methods and apparatus described herein, but is intended to provide the broadest scope consistent with the principles and novel features disclosed herein.

Claims (23)

A method of authorizing an application running on a mobile station, Attempting to run a Location Based Service (LBS) application on the mobile station; Invoking a location location engine in the mobile station using the LBS application; Requesting authorization of the LBS application; Communicating directly between the positioning engine and the MPC in a first communication session to cause a Mobile Positioning Center (MPC) to fulfill a request for authorization of the LBS application; Establishing a second communication session between the positioning engine and a Position Determining Equipment (PDE) independent of the first communication session to attempt a Mobile Originated (MO) position measurement; And Receiving, in response to authorization of the LBS application, only in the mobile station information necessary to continue running the LBS application when the LBS application is authorized. The method of claim 1, If the LBS application is not authorized, receiving a response message indicating that authorization failed; And In response to receiving the response message, stopping the LBS application. The method of claim 1, The LBS application attempted to run on the mobile station requires an authorization from the MPC in order to receive all necessary information. The method of claim 1, Authorization of the LBS application to be run on the mobile station is independent of other authorization operations to be requested by the mobile station to authorize telephony communication. The method of claim 4, wherein Authorization of the LBS application to be run on the mobile station is also independent of other authorization operations to be requested to authorize other applications. The method of claim 3, wherein Authorization of the LBS application by the MPC allows the mobile station to communicate with other components. The method of claim 6, The other components include a location determination entity. As a mobile station (MS), A processor and location engine, wherein the processor is configured to run a Location Based Service (LBS) application to determine the location of the MS with the location engine; An apparatus for directly communicating with a Mobile Positioning Center (MPC) in a first communication session to request authorization to run the LBS application; Independent of the first communication session, a Mobile Originated (MO) positioning session is initiated to establish a communication session between the position measurement engine and a Position Determining Equipment (PDE) to determine the position of the MS. Device for making; And And a device receiving from the MPC an indication of whether the driving of the LBS application is authorized and allowing the processor to run the LBS application. The method of claim 8, And the positioning engine is a GPS application program interface (API). The method of claim 8, The LBS application is a program that provides a service to a user of the MS using the location of the mobile station. The method of claim 8, The LBS application is an applet that provides a service to a user of the MS using the location of the mobile station. The method of claim 8, The LBS application is a routine for providing a service to a user of the MS using the location of the mobile station. The method of claim 8, The LBS application is a computer implemented algorithm that provides a service to a user of the MS using the location of the mobile station. The method of claim 13, The computer implemented algorithm also identifies a location of another mobile station. The method of claim 13, And the computer-implemented algorithm determines the location of the point of interest providing a product in the vicinity of the mobile station and provides the user with directions to the point of interest. The method of claim 13, And the computer-implemented algorithm determines a location of a point of interest providing service in the vicinity of the mobile station and provides the user with guidance to the point of interest. A mobile station configured to run a Location Based Service (LBS) application, A processor configured to execute the LBS application; And A positioning engine coupled to the processor and invoked by the LBS application, The position measurement engine is configured to, in a first communication session, forward a request for positioning to a mobile positioning sensor (MPC) and receive a position process response message from the MPC in response to the request for positioning. Wherein the location measurement engine indicates that the location process response message indicates that the LBS application is authorized, independent of the first communication session, in response to a MO (Mobile Originated) communication session. To determine, the mobile station. The method of claim 17, And the location measurement engine is further configured to provide the location of the mobile station to the LBS application when the LBS application is authorized. The method of claim 17, The location process response message includes a location status message indicating a method used to calculate the location of the mobile station. The method of claim 17, And the request for location includes an application indicator configured to identify the LBS application. The method of claim 17, And the location measurement engine is further configured to initiate a Mobile Originated (MO) location measurement session in response to receiving the location process response message. A method of authorizing an application running on a mobile station, Attempting to run a Location Based Service (LBS) application on the mobile station; Establishing a TCP / IP communication session between a positioning engine in the mobile station and a Mobile Positioning Center (MPC), the positioning engine causing the MPC to fulfill a request for authorization of the LBS application. Establishing the TCP / IP communication session in direct communication with the MPC for communication; Establishing a Mobile Originated (MO) location measurement session between the location measurement engine and a Position Determining Equipment (PDE) independent of the TCP / IP communication session to determine the location of the mobile station; And Communicating the location of the mobile station to the LBS application when the MPC authorizes the LBS application. The method of claim 22, Establishing a TCP / IP communication session between the location engine and the MPC includes forwarding a request for location from the location engine to the MPC, the request for location being determined by the LBS application. A method of authorizing an application, comprising a Universal Resource Locator (URL) of a related content provider.

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